201040692 r ινλ1-^λ.〇3 10-TWXX 30865twf.doc/n 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種電子裝置,且特別是有關於一種 滑蓋式的電子裝置。 【先前技術】 、隨著科技的發展,人類對電子裝置的依賴性亦與曰倶 增三由於現今使用者對於電子裝置具有高運算效能及尺寸 〇 輕薄短小等需求。因此’各種可攜式電子裝置便因應而生。 可攜式電子裝置是指可讓使用者隨身攜帶及操作之電子裝 置,常見的有超級行動電腦(Ultra mobi]le pers〇nal c〇mputer, UMPC)、平板型電腦(tabletpc)、掌上型電腦(handhdd PC)、個人數位助理(pers〇nai 邮制 assistant, pda)、 行動電話(cellphone)以及筆記型電腦(n〇teb〇〇kpc)等 等。 為了提高打字輪入的便利性,可攜式電子裝置可配備 ❹ ~標準鍵盤於其機體上。然而,若鍵盤與顯示螢幕均位於 同一機體之一面時,可攜式電子裝置必須採用具有較大面 積的機體。因此,在目前的可攜式電子裝置_,大多採用 兩層折疊式機體設計或兩層滑蓋式機體設計 ,這可讓顯示 螢幕及鍵盤可分別位於兩重疊的機體上,因而縮小可攜式 電子裝置之機體面積。 【發明内容】 〇本發明提供一種電子裝置,能夠根據使用者單方向的 操作,而對應產生蓋體或滑動件的滑動。 201040692 ^JNAi-ca-ujiO-TWXX 30865twf.doc/n 本發明提出一種電子裝置,包括一本體(b〇dy)、一 蓋體(cover)、一彈性懸臂(elasticcantilever)以及一彈 性件(elastic element)。蓋體滑設於本體,且適於沿一軸 線(axis)延伸方向而相對本體滑動。蓋體與本體其中之 -具有-導槽,且導槽(guiding slGt)具有多個死點(如出 point)。彈性懸臂具有一固定端與一自由端。固定端固接 於盍體與本體其中另一且位於軸線上,而自由端具有一凸 起(protrusion),突伸於導槽中。當蓋體相對於本體而滑 動至一定點處而不能再滑動時,凸起分別將位於這些死點 其中之一。彈性件配置於本體與蓋體之間,用以將二彈性 力以-第-方向作用於蓋體,且第—方向平行轴線。 在本發明之-實施例中’ 一第一部分的死點位於轴線 的-第-侧’且-第二部分的死點位於轴線相對第一側的 一第二侧,當凸起位於第一部分的死點其中之一時,彈性 懸臂朝向第性彎折,且當凸起位於第二部分的死點 其中之一時,彈性懸臂朝向第二側彈性彎折。 在本發明之-實施例中,第—部分的死點包括一第一 =、-第二死點以及—第三死點,第二部分的死點包括 弟四死點,且第-死點、第二死點、第四死齡第三死 點依序地排列於導槽。 、 在本發明之-實施例中,當凸起位於第一死點 體的邊緣實質上對齊於本體的邊緣;當蓋體奸 向的作用力時,作用力帶動蓋體沿第二方向移動,直到凸 起自第-死點移動至第二死點為止,其中第二方向盘第一 o o 201040692 r 腦-wv-03 财 WXX 30865twfd〇c/n 方向彼此相對。當凸起位於第二死點 沿第一方向移動,直到凸起自第二動蓋體 止’使得蓋體相對本體開啟。當蓋體為 作用力時,第二方向的作用力册又又到第一方向的 直利凸起自4四死點移動至第三死㈣ 二死點時,彈性力帶動蓋體沿第—方^田位於第 第三死點移動至第—死點為止。°移動,直到凸起自 在本發明之—實施财, 體具有多個按鍵單元。 、$置’且本 中,蓋體與本體其中另 開口’暴露出凸起。 ^ 件ίίΓί提出—種電子裝置,包括—本體、一滑動 ^(eIastic locati〇n eiement> 具有—滑槽。滑動件滑設於本體之滑槽内部, 、軸線相對本體滑動。滑動件與本體其中之一具 右槽,且第一導槽具有多個死點。彈性定位件具 *疋端與—自由端。岐端固接於滑動件 且位於轴線上。自由端具有—凸起突伸於第一導槽 中。當滑動件相對於本體而滑動至一定點處而不能再滑動 時,凸起分別將位於這些死點其中之一。第一彈性件配置 於'月動件與本體之間’用以在-第-方向上將-第一彈性 力作用於滑動件。第一方向平行轴線。 —在本發明之一實施例中,一第一部分的死點位於軸線 的第一側,且一第二部分的死點位於軸線相對第一側的 5 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 一第一側,當凸起位於第一部分的死點其中之— ^ 疋位件朝向第一側彈性彎折,且當凸起位於—、彈陡 审μ甘. 、禾一 口 Ρ分的死 2其中之一日守,彈性定位件朝向第二側彈性彎折。 在本發明之一實施例中,滑動件更包括一下蓋、一樞 轴以及-上蓋。下蓋滑設於滑槽内,且彈性定位件的;定 端固接於下蓋。樞軸連接於下蓋的一侧邊處。上蓋連接於 樞軸,以藉由樞轴樞設於下蓋。 ; 在本發明之一實施例中,滑槽内側壁具有一第一卡扣 部’相對應於第一卡扣部位置的上蓋的側壁表面具有一第 一卡扣部,第一卡扣部適於與第二卡扣部相卡扣(lock), 菖凸起位於這些死點其中之一時,第_—^扣部與第二卡扣 部解卡扣(unlock )。 在本發明之一實施例中,第一卡扣部與第二卡扣部分 別為一卡槽(hooking slot)與一卡鉤(hook)其中之一。 在本發明之一實施例中,滑動件更包括一第二彈性 件’配置於樞軸,用以將一第二彈性力作用於上蓋。當第 ^扣部與第二卡扣部解卡扣時,上蓋受到第二彈性力的 帶動而相對下蓋開啟。 在本發明之一實施例中,第二彈性件為一扭轉彈簧 (torsion spring )。 在本發明之一實施例中,第一部分的死點包括一第一 死點、一第二死點以及一第三死點,第二部分的死點包括 一第四死點,且第一死點、第二死點、第四死點與第三死 點依序地排列於第一導槽。 201040692 rjNAi-^A-031〇-TWXX 30865twf.doc/n201040692 r ινλ1-^λ.〇3 10-TWXX 30865twf.doc/n VI. Description of the Invention: [Technical Field] The present invention relates to an electronic device, and more particularly to a slide type electronic device . [Prior Art] With the development of technology, human dependence on electronic devices is also in line with the demand for high computing power and size, thinness and shortness of electronic devices. Therefore, various portable electronic devices have been born. The portable electronic device refers to an electronic device that can be carried and operated by the user. Commonly, there are a super mobile computer (Ultra mobi)le pers〇nal c〇mputer, UMPC), a tablet computer (tabletpc), a palmtop computer. (handhdd PC), personal digital assistant (pers〇nai postal assistant, pda), mobile phone (cellphone) and notebook computer (n〇teb〇〇kpc) and so on. In order to improve the convenience of typing, the portable electronic device can be equipped with a standard keyboard on its body. However, if both the keyboard and the display screen are located on one side of the same body, the portable electronic device must use a larger body. Therefore, in the current portable electronic devices, most of them adopt a two-layer folding body design or a two-layer sliding body design, which allows the display screen and the keyboard to be respectively located on two overlapping bodies, thereby reducing the portable type. The body area of the electronic device. SUMMARY OF THE INVENTION The present invention provides an electronic device capable of correspondingly sliding a cover or a slider according to a single direction operation of a user. The present invention provides an electronic device including a body, a cover, an elastic cantilever, and an elastic element. ). The cover body is slidably disposed on the body and is adapted to slide relative to the body along an axis extending direction. The cover body and the body have a guide groove, and the guiding slGt has a plurality of dead points (such as an out point). The elastic cantilever has a fixed end and a free end. The fixed end is fixed to the other of the body and the body and is located on the axis, and the free end has a protrusion protruding in the guide groove. When the cover slides to a certain point relative to the body and can no longer slide, the projections will respectively be located at one of these dead points. The elastic member is disposed between the body and the cover body to apply the two elastic forces to the cover body in the -first direction, and the first direction is parallel to the axis. In the embodiment of the invention - the dead point of a first portion is located on the -th side of the axis and the dead point of the second portion is located on a second side of the axis relative to the first side, when the projection is located In one of the dead points, the elastic cantilever is bent toward the first degree, and when the protrusion is located at one of the dead points of the second portion, the elastic cantilever is elastically bent toward the second side. In the embodiment of the present invention, the dead point of the first portion includes a first =, - the second dead point, and - the third dead point, and the dead point of the second portion includes the fourth dead point, and the first dead point The second dead point and the fourth dead point of the fourth dead age are sequentially arranged in the guide groove. In the embodiment of the present invention, when the protrusion is located at the edge of the first dead point body, substantially aligned with the edge of the body; when the cover body acts, the force drives the cover body to move in the second direction. Until the protrusion moves from the first-dead point to the second dead point, wherein the second steering wheel first oo 201040692 r brain-wv-03 financial WXX 30865twfd〇c/n direction is opposite to each other. When the projection is at the second dead point, it moves in the first direction until the projection is stopped from the second movable cover so that the cover is opened relative to the body. When the cover body is acting, the force force register in the second direction moves to the first direction of the straight bulge from the 4th dead point to the third dead (four) two dead point, the elastic force drives the cover along the first side ^ Tian is in the third dead point and moves to the first - dead point. The movement is carried out until the projection is implemented by the present invention, and the body has a plurality of button units. And, in the middle, the cover body and the other opening in the body expose a protrusion. ^ ίίίί proposed an electronic device, including - the body, a sliding ^ (eIastic locati〇n eiement) has a - chute. The sliding member slides inside the sliding groove of the body, the axis slides relative to the body. The sliding member and the body One of the right grooves has a right groove, and the first channel has a plurality of dead points. The elastic positioning member has a * end and a free end. The end is fixed to the slider and is located on the axis. The free end has a convex protrusion In the first guiding groove, when the sliding member slides to a certain point relative to the body and can no longer slide, the protrusions respectively will be located at one of the dead points. The first elastic member is disposed between the 'moon element and the body 'To apply a first elastic force to the slider in the -first direction. The first direction is parallel to the axis. - In an embodiment of the invention, the dead point of a first portion is on the first side of the axis, And a second portion of the dead point is located on the first side of the axis relative to the first side of the 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n, when the protrusion is located in the dead point of the first portion - ^ 疋 position Elastically bent toward the first side, and when the protrusion is located - The elastic locating member is elastically bent toward the second side. In one embodiment of the present invention, the sliding member further includes a lower cover and a pivot. And an upper cover. The lower cover is slidably disposed in the sliding slot, and the elastic positioning member is fixedly fixed to the lower cover. The pivot is connected to one side of the lower cover. The upper cover is connected to the pivot shaft to be pivoted The first cover of the upper cover has a first fastening portion, and the side wall surface of the upper cover corresponding to the position of the first fastening portion has a first fastening portion. The first fastening portion is adapted to be locked with the second fastening portion, and when the protrusion is located at one of the dead points, the first fastening portion and the second fastening portion are unlocked. In an embodiment of the invention, the first fastening portion and the second fastening portion are respectively one of a hooking slot and a hook. In an embodiment of the invention, the sliding The device further includes a second elastic member disposed on the pivot for applying a second elastic force to the upper cover. When the second buckle and the second card When the buckle is unlocked, the upper cover is driven by the second elastic force to be opened relative to the lower cover. In one embodiment of the invention, the second elastic member is a torsion spring. In an embodiment of the present invention The first part of the dead point includes a first dead point, a second dead point and a third dead point, and the second part of the dead point includes a fourth dead point, and the first dead point, the second dead point, The fourth dead point and the third dead point are sequentially arranged in the first guiding slot. 201040692 rjNAi-^A-031〇-TWXX 30865twf.doc/n
O o “在本發明之-實施例中,當凸起位於第—死點且上芸 ,合於下蓋時’下蓋的邊緣實質上對齊於本體的邊緣,且 一卡扣部與第二卡扣部相卡扣。當下蓋受到一第二方向 的作用力時,第二方向的作用力帶動下蓋沿第二方 動,直到凸起自第-死點移動至第二死點為止,其 f向與第-方向彼此相對。當凸起位於第二死點時= 卡扣部與第二卡扣部解卡扣,且第—彈性力帶動下罢 二,動:直,自第二死點移動至第四死點;:。 二了盍再度文到第二方向的作用力時,作用力帶動下蓋厂 弟二方向移動,直到凸起自第四死點移動至第三死點^ 止。當凸起位於第三死點時,第—彈性力帶動下蓋沿第三 方向移動,直到凸起自第四死點移動至第一死 “在本發明之-實施例中,彈性定位件為一彈2且 使得凸起組設於第二導槽。第二導槽 線型(hne一e) ’且第二導槽的延伸方向與轴線相垂 人,明之電子裝置#由凸起與導槽的配 :使付裹體與本體根據凸起在導槽中死點的位置, '不同的操作狀態。因此,使时可配合 J =作狀態’相當具有彈性。此外,當使用者= 體,來使蓋體姉本贿動即可。因此,便利性^。、 為讓本發明之上述雖和伽能更鶴H 舉貫施例,並配合所附圖式作詳細說明如下。卜文知 7 201040692 j^jnai-ua-uj ιΟ-TWXX 3〇865twf.doc/n 【實施方式】 圖1A為本發明一實施例之電子裝置的立體示意圖, 圖1Β為圖1Α之電子裂置的俯視示意圖。請參考圖ία與 圖1Β,電子裝置100包括一本體11〇、一蓋體丨2〇、一彈 性懸臂130以及一彈性件140。蓋體12〇滑設於本體u〇 , 且適於沿一轴線Α1延伸方向而相對本體11〇滑動。在本 實施例中,電子裝置100例如為一手機。蓋體12〇可具有 例如為觸控螢幕的一顯示裝置124,用以顯示資訊认使用 者。本體11〇可具有多個按鍵單元112。當蓋體π12〇Ρ如圖 1Α與圖1Β所示相對本體110開啟時,使用者可藉由這些 按鍵單元112來輸入電話號碼或文字訊息。 進一步來說,蓋體120具有一導槽122,該導槽是由 一封閉且呈不規則形狀的環形軌道所構成,且導槽122上 具有由多個彎折處所構成的多個死點ρ。彈性懸臂13〇具 有一固疋鈿132與一自由端134。固定端132固接於本體 110且位於軸線Α1上。自由端134具有一凸起13如,突 伸於導槽122中。在本實施例中,彈性懸臂13〇例如與本 體110 —體成型,且本體110可具有一開口 114,暴露出 凸起134a。此外,彈性懸臂13G選自—具·材質所製成, 其最佳者可為金屬材質’而可藉由其材質特性,而在 ^產生彈紐復力。另外’在蓋體12G安裝於本體i^之 前,也就是凸起ma尚未與導槽m在結構上干 候,彈性懸臂130不會產生彈性形變且其延伸方 所 上平行軸線A1。 只貝 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 虽盍體120相對於本體11()而滑動至一定點處而不能 再滑動%,凸起134a分別將位於這些死點p其中之一。進 一步來5尤,這些死點P可包括一第一死點ρι、一第二死點 P2、一第二死點P3以及一第四死點,且第一死點、 第二死點P2、第四死點P4與第三死點p3依序地排列於導 巧122。在本實施例中,第一死點pl、第二死點p2以及 第二死點P3例如位於軸線A1的一第一側S1,且第四死 〇 點P4位於軸線A1相對第一側S1的一第二侧S2。當凸起 134a位於第一死點π、第二死點p2以及第三死點p3其 中之一時,彈性懸臂130朝向第一側S1彈性彎折。當凸 起134a位於第四死點p4時,彈性懸臂13〇朝向第二側S2 彈性彎折。 雖然在本實施例中,導槽122是位於蓋體12〇,彈 性懸臂m的固定端m固接於本體110,1^未: 示的實施例中,導槽122可位於本體no,且彈性懸臂13〇 的固定端132可固接於蓋體120。亦即,導槽12f可盥彈 〇 _臂13_置的位置互換,同樣能夠達収點滑動的效 果,本實施例並不以此為限。 圖2為圖1A之電子裝置的彈性件的立體示意圖。請 f考圖1A、、1B與圖2,彈性件刚配置於本體11〇與 蓋體120之間(僅示意地繪示於圖1A、1B),用以將二 彈性力E以一第一方向D1作用於蓋體12〇,且第一方向 D1平行軸線A1。詳細而言,彈性件14〇可包括一滑執件 142、一活動件144以及一彈性元件146。滑執件142固接 9 201040692 PNAI-C A-0310-TWXX 30865twf.doc/n 於本體110,且具有一滑槽142a。活動件144滑設於滑槽 142a中’且固接於蓋體12〇。彈性元件146配置於滑槽142a 中,且其一端適於承罪至活動件144,而另一端適於承靠 至滑執件142的側壁上。當蓋體120相對本體11〇滑動時, 會帶動活動件144在滑槽142a中滑動。當活動件144由圖 2的上方朝向下方滑動時,彈性元件146受到壓縮而對應 產生前述的彈性力E。在本實施例中,彈性元件146例如 為一彈簧。 —圖3A〜5A為圖1A之電子裝置於不同操作狀態的立體 不意圖,圖3B〜圖5B分別為圖3A〜5A之電子裝置的俯視 示意圖。以下,將配合圖1A、3A〜5A、圖m、圖3B~圖 5B來說明電子裝置1〇〇於不同操作狀態下的結構變化。 首先,請參考圖3A與圖3B,當使用者不需使用這些 按鍵單元112時,可藉由蓋體12〇來隱藏這些按鍵單元 112。此時,凸起134a位於第一死點ρι,且蓋體12〇的邊 緣實質上對齊於本體11〇的邊緣。此外,彈性懸臂13〇朝 向第一侧si彈性彎折,使得凸起134a受到彈性懸臂13〇 形變時產生的恢復力而向第二側S2承靠於導槽122的侧 土上之後,若是使用者希望使用這些按鍵單元112時, 可沿一第二方向D2推壓蓋體12〇,使得蓋體12〇受到第二 方向m的作用力F。在本實施例中,第二方向與第一 方向D1可彼此相對。 請參考圖4A與圖4B,在蓋體12〇受到作用力F且作 用力F帶動蓋體120沿第二方向D2移動之後,凸起ma 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 自第一死點PI移動至第二死點P2。此時,彈性懸臂13〇 仍然朝向第一側S1彈性彎折,且彈性件140 (如圖2)的 彈性元件146受到壓縮,而產生對應的彈性力£。 請參考圖1A與圖1B,在蓋體12〇受到彈性力E的帶 動而沿第一方向D1移動之後,凸起會從第二死點p2移動 至第四死點P4,使得蓋體120相對本體ι10開啟。此時, 彈性懸臂130朝向第二侧S2彈性彎折,使得凸起U4a受 0 到彈性懸臂13〇形變時產生的恢復力而向第一側si承靠 於導槽122的側壁上。然後,若是使用者利用這些按鍵單 元112輸入完成後,可再度施加第二方向D2的作用力F 於蓋體120上。 請參考圖5A與圖5B,在蓋體120再度受到第二方向 D2的作用力F且作用力F帶動蓋體12〇沿第二方向D2移 動之後’凸起134a自第四死點P4移動至第三死點P3。此 叫·’蓋體120的邊緣與本體11〇的邊緣略為錯開。此外, 彈性懸臂130朝向第一側si彈性彎折,使得凸起13如受 〇 到彈性懸臂130形變時產生的恢復力而向第二侧s2承靠 於導槽122的侧壁上。 接著,彈性力E帶動蓋體120沿第一方向D1移動, 直到凸起134a自第三死點P3移動至第一死點?1為止(如 圖3A或圖3B所示)。此時,蓋體120的邊緣與本體ho 的邊緣從錯開的狀態恢復到對齊的狀態(如圖3A與圖3B 所示)。 圖6A為本發明另一實施例之電子裝置的立體示意 11 201040692 riNAi-uA-ujjO-TWXX 30865twf.doc/n 圖,圖6B為圖6A之電子裝置的俯視示意圖。請參 6A與圖6B,電子裝置·,包括—本體21〇、一滑動件 220、-彈性定位件230以及一第一彈性件(未緣示) 體210具有一第一導槽212與一滑槽214,而第一導槽犯 同樣地是由-封閉且呈不規則形狀的環形軌道所構成曰,且 由多個彎折處而構成多個死點p’。在本實施例中,本體训 可具有-顯不裝置(未繪示),而滑動件細可具 按鍵單元(未繪示)。 〃 滑動件220滑設於本體210之滑槽214内部,且適於 /口 一軸線A2相對本體210滑動。在本實施例中,滑動件 220可包括一下蓋222、一枢軸224以及一上蓋226。下蓋 222滑設於滑槽214内,柩軸224連接於下蓋222的一側 邊,。上蓋226連接於樞軸224,以藉由樞轴224樞設於 :盍222。在本實施例中,這些按鍵單元可分別配置於上 盍226與下蓋222,且位於上蓋226與下蓋222相對的内 ,面亡,組成一完整的QWERTY形式的鍵盤組。亦即, 备上盍226盍合於下蓋222時,可將這些按鍵單元或鍵盤 組隱藏起來,而讓外觀維持一致性,當然上蓋226的上表 面處,亦可依據產品使用的需要性而另設多個按鍵單元, 以提供其他功能的應用。 彈性定位件230具有一固定端232與一自由端234。 固疋端232固接於滑動件220底部,亦即指固定端232的 下盍222底部,且位於軸線A2上。自由端234具有一凸 起234a突伸於第一導槽212中,使得當滑動件22〇相對於 12 201040692 PNAI-C A-0310-TWXX 3〇865twf.doc/n 本體210而滑動至一定點處而不能再滑動時,凸起23如 分別將位於這些死點p’其中之一。在本實施例中,彈性定 位件230可為一彈簧,且下蓋222可具有一第二導槽 222a ’使得凸起234a組設於第二導槽222a。此外,第二 導槽222a例如呈線型,且第二導槽222a的延伸方向與轴 線A2相垂直。 雖然在本實施例中,第一導槽212是位於本體21〇, 〇 且彈性定位件230的固定端232固接於滑動件22〇,但在 另一未繪示的實施例中,第一導槽212可位於滑動件22〇, 且彈性定位件230的固定端232可固接於本體21〇。亦即, 弟一導槽212可與彈性定位件230設置的位置互換,同樣 能夠達到定點滑動的效果,本實施例並不以此為限。 進一步來說,這些死點P,例如包括一第一死點P5、 一第二死點P6、一第三死點P7以及一第四死點p8,且第 一死點P5、第二死點P6、第四死點烈與第三死點”依 序地排列於第一導槽212。其中,第一死點P5、第二死點 P6、弟二死點P7位於轴線A2的一第一侧;§3,且第四死 點P8位於軸線A2相對第一侧S3的—第二側討。當凸起 234a位於第一死點P5、第二死點P6、第三死點卩7 &中之 一時’彈性定位件230朝向第一侧S3產生—彈性拉/伸力。 當凸起234a位於第四死點P8時,彈性定位件23〇朝向第 二側S4產生彈性拉伸力。雖然,本實施例與前一實施例 皆是用四個死點為例,但在另一未繪示的實施例中,死點 的數量以及位置皆可隨設計上的需求,來作調整,並不以 13 201040692 nN/u七λ-ιλμΟ-TWXX 30865twf.doc/n 此為限。 第一彈性件配置於滑動件22〇與本體21〇之間,用以 在-第-方向D3上將-第—彈性力E1作用於滑動件 =0。,其中第一方向D3平行軸線A2。在本實施例中,第 一彈性件亦可採用如圖2之彈性件14〇來實現。舉例來說, 可將彈性件140配置於滑槽214的底部,並將其滑執件|42 固接於本體210的滑槽214内,而將活動件144固接於滑 動件220。 ' 更進一步來說,滑槽214内側壁可具有一第一卡扣部 216’相對應於第—卡扣部216位置的上蓋226的側壁表面 具有一第二卡扣部226a。第一卡扣部216適於與第二卡扣 部226a相卡扣,以固定上蓋226與本體210的相對位置關 係。在本實施例中,第一_^扣部216與第二卡扣部226a 分別為一卡鉤與—卡槽,且皆具有一相對的斜面。此外, 第一卡扣部216可配置於本體210側壁上的一容置槽€ 中,且連接至一彈簧B。藉由彈簧B的彈力,第一卡扣部 216可從收納於容置槽c中的位置而移動至局部地於本體 210的侧壁外的位置。 圖7A〜11A為圖6A之電子裝置於不同操作狀態的立 體示意圖’圖7B〜圖11B分別為圖7A〜11A之電子裝置的 俯視示意圖。以下,將配合圖6A、7A〜11A、圖6B、圖 7B〜圖11B來說明電子裝置200於不同操作狀態下的結構 變化。 首先,請參考圖6A與圖6B,凸起234a位於第一死 14 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 點P5且上蓋226蓋合於下蓋222。此時,下蓋222的邊緣 實質上對齊於本體210的邊緣,且第一卡扣部216與第二 卡扣部226a相卡扣。此外,彈性定位件23〇朝向第一側 S3方向提供一彈性力’使得凸起23如受到彈性定位件23〇 形變時產生的恢復力而向第二側S4承靠於第一導槽212 的側壁上。之後,若是使用者希望讓上蓋226相對下蓋222 打開時,可沿一第二方向D4推壓滑動件220,使得滑動件 〇 220受到第二方向D4的作用力F1。在本實施例中,第二 方向D4與第一方向D3可彼此相對。 請參考圖7A與圖7B,在滑動件22〇受到作用力F1 且作用力F1帶動滑動件220沿第二方向D4移動之後,凸 起234a自第一死點P5移動至第二死點抑。此時,彈性定 位件230仍然朝向第一側S3提供彈性力,且第一彈性件 產生對應的彈性力E1。在上述滑動件22〇移動的過程中, 第-卡扣部216會在其斜面與第二卡扣冑2施的斜面接觸 後,而收納於容置槽c中,使得第一卡扣部216與第二卡 扣部226a在結構上互不干涉。亦即,當凸起234&位於第 二死點P6時’第-卡扣部216與第二卡扣部加解卡扣。 在本實施例中’滑動件220更可包括一第二彈性件2 2 8 (僅示意崎示於圖7A與圖7B) ^二彈性件228例如 為-扭轉彈簧,且配置於樞轴226,用以將一第二彈性力 E2作用於上蓋226。請接著參考圖8A與圖8β,在第一 扣=216與第二卡扣部22如解卡扣之後,上蓋挪受到第 二彈性力E2的帶動而相對下蓋從開啟。此時,凸起咖 15 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 仍位於弟一死點P6。雖然,本實施例的上莒226是受到第 二賴件228的帶動而相對下蓋222開啟^:但在^ = 示的實施例中,亦可省略配置第二彈性件228,而採用讓 使用者手動開啟或是其他的機構設計,並不以此為限。O o "In the embodiment of the present invention, when the protrusion is located at the first dead point and the upper jaw, when the lower cover is closed, the edge of the lower cover is substantially aligned with the edge of the body, and a buckle portion and the second portion The buckle portion is buckled. When the lower cover receives a force in a second direction, the force in the second direction drives the lower cover to move along the second direction until the protrusion moves from the first dead point to the second dead point. The f-direction and the first-direction are opposite to each other. When the protrusion is located at the second dead point, the buckle portion and the second buckle portion are unfastened, and the first elastic force is driven by the second, moving: straight, from the second When the dead point moves to the fourth dead point; When the protrusion is at the third dead point, the first elastic force drives the lower cover to move in the third direction until the protrusion moves from the fourth dead point to the first dead. In the embodiment of the present invention, the elasticity The positioning member is a bullet 2 and the protrusion is arranged in the second guiding groove. The second channel line type (hne-e)' and the extension direction of the second channel is perpendicular to the axis, and the electronic device of the Ming is arranged by the protrusion and the channel: the body and the body are guided according to the protrusion The position of the dead point in the slot, 'different operating state. Therefore, the time can be matched with J = state 'is quite elastic. In addition, when the user = body, the cover can be bribed. Therefore, convenience ^. In order to make the above-described embodiment of the present invention and the gravitational force H, the following description will be described in detail with reference to the drawings. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a perspective view of an electronic device according to an embodiment of the present invention, and FIG. 1A is a plan view of the electronic device of FIG. schematic diagram. Referring to FIG. 1 and FIG. 1 , the electronic device 100 includes a body 11 , a cover 丨 2 , an elastic cantilever 130 , and an elastic member 140 . The cover body 12 is slidably disposed on the body u〇 and is adapted to slide relative to the body 11〇 along an extending direction of the axis Α1. In this embodiment, the electronic device 100 is, for example, a mobile phone. The cover 12 can have a display device 124, such as a touch screen, for displaying information to the user. The body 11A can have a plurality of button units 112. When the cover body π12 is opened as shown in FIG. 1A and FIG. 1A, the user can input a phone number or a text message by using the button unit 112. Further, the cover 120 has a guiding groove 122, and the guiding groove is formed by a closed and irregularly shaped circular orbital, and the guiding groove 122 has a plurality of dead points ρ formed by a plurality of bending points. . The resilient cantilever 13 has a fixed bore 132 and a free end 134. The fixed end 132 is fixed to the body 110 and is located on the axis Α1. The free end 134 has a projection 13, for example, projecting into the guide groove 122. In the present embodiment, the elastic cantilever 13 is integrally formed, for example, with the body 110, and the body 110 may have an opening 114 exposing the projection 134a. Further, the elastic cantilever 13G is selected from a material and a material, and the best one may be a metal material, and the elastic property of the spring may be generated by the material property. Further, before the cover 12G is attached to the body i, that is, the projection ma has not yet structurally waited with the guide groove m, the elastic cantilever 130 does not elastically deform and extends parallel to the parallel axis A1. Only 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n Although the body 120 slides to a certain point relative to the body 11() and can no longer slide %, the protrusions 134a will respectively be located at one of these dead points p . Further, the dead point P may include a first dead point ρι, a second dead point P2, a second dead point P3, and a fourth dead point, and the first dead point and the second dead point P2. The fourth dead point P4 and the third dead point p3 are sequentially arranged in the guide 122. In this embodiment, the first dead point pl, the second dead point p2, and the second dead point P3 are located, for example, on a first side S1 of the axis A1, and the fourth dead point P4 is located on the first side S1 of the axis A1. A second side S2. When the projection 134a is located at one of the first dead point π, the second dead point p2, and the third dead point p3, the elastic cantilever 130 is elastically bent toward the first side S1. When the projection 134a is located at the fourth dead point p4, the elastic cantilever 13 is elastically bent toward the second side S2. In this embodiment, the guiding slot 122 is located in the cover body 12, and the fixed end m of the elastic cantilever arm m is fixed to the body 110. In the illustrated embodiment, the guiding slot 122 can be located in the body no and elastic. The fixed end 132 of the cantilever 13A can be fixed to the cover 120. That is, the position of the guide groove 12f can be interchanged by the position of the ball 〇 _ arm 13_, and the effect of the sliding point can be achieved. This embodiment is not limited thereto. 2 is a perspective view of the elastic member of the electronic device of FIG. 1A. Please refer to FIG. 1A, FIG. 1B and FIG. 2 , the elastic member is disposed between the body 11 〇 and the cover 120 (only schematically shown in FIGS. 1A and 1B ) for using the first elastic force E as a first The direction D1 acts on the cover 12A, and the first direction D1 is parallel to the axis A1. In detail, the elastic member 14A may include a sliding member 142, a movable member 144, and a resilient member 146. The sliding member 142 is fixed to 9 201040692 PNAI-C A-0310-TWXX 30865twf.doc/n in the body 110 and has a sliding slot 142a. The movable member 144 is slidably disposed in the chute 142a' and is fixed to the cover 12'. The resilient member 146 is disposed in the chute 142a and has one end adapted to bear the motion member 144 and the other end adapted to bear against the sidewall of the slidable member 142. When the cover 120 slides relative to the body 11〇, the movable member 144 is driven to slide in the sliding slot 142a. When the movable member 144 is slid downward from the upper side of Fig. 2, the elastic member 146 is compressed to correspondingly generate the aforementioned elastic force E. In the present embodiment, the elastic member 146 is, for example, a spring. 3A to 5A are perspective views of the electronic device of Fig. 1A in different operational states, and Figs. 3B to 5B are top plan views of the electronic device of Figs. 3A to 5A, respectively. Hereinafter, the structural changes of the electronic device 1 in different operation states will be described with reference to Figs. 1A, 3A to 5A, m, and 3B to 5B. First, referring to FIG. 3A and FIG. 3B, when the user does not need to use the button units 112, the button units 112 can be hidden by the cover 12 〇. At this time, the projection 134a is located at the first dead point ρι, and the edge of the cover 12〇 is substantially aligned with the edge of the body 11〇. In addition, the elastic cantilever 13 is elastically bent toward the first side si such that the protrusion 134a is subjected to the restoring force generated when the elastic cantilever 13 is deformed and bears against the lateral side of the guide groove 122 toward the second side S2, if used When it is desired to use these button units 112, the cover body 12A can be pushed in a second direction D2 such that the cover body 12 is subjected to the force F in the second direction m. In the present embodiment, the second direction and the first direction D1 may be opposed to each other. Referring to FIG. 4A and FIG. 4B, after the cover 12 is subjected to the force F and the force F drives the cover 120 to move in the second direction D2, the protrusion ma 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n The first dead point PI moves to the second dead point P2. At this time, the elastic cantilever 13 is still elastically bent toward the first side S1, and the elastic member 146 of the elastic member 140 (Fig. 2) is compressed to generate a corresponding elastic force £. Referring to FIG. 1A and FIG. 1B, after the cover body 12 is moved by the elastic force E and moved in the first direction D1, the protrusion moves from the second dead point p2 to the fourth dead point P4, so that the cover 120 is opposite. The body ι10 is turned on. At this time, the elastic cantilever 130 is elastically bent toward the second side S2 such that the projection U4a is supported by the restoring force generated when the elastic cantilever 13 is deformed toward the first side si against the side wall of the guide groove 122. Then, if the user inputs the button unit 112, the force F in the second direction D2 can be applied again to the cover 120. Referring to FIG. 5A and FIG. 5B, after the cover 120 is again subjected to the force F in the second direction D2 and the force F drives the cover 12 to move in the second direction D2, the protrusion 134a moves from the fourth dead point P4 to The third dead point P3. The edge of the cover body 120 is slightly offset from the edge of the body 11〇. Further, the elastic cantilever 130 is elastically bent toward the first side si such that the projection 13 bears against the side wall of the guide groove 122 toward the second side s2 by the restoring force generated when the elastic cantilever 130 is deformed. Then, the elastic force E drives the cover 120 to move in the first direction D1 until the protrusion 134a moves from the third dead point P3 to the first dead point. 1 (as shown in Figure 3A or Figure 3B). At this time, the edge of the cover 120 and the edge of the body ho are restored from the staggered state to the aligned state (as shown in FIGS. 3A and 3B). 6A is a perspective view of an electronic device according to another embodiment of the present invention. 11 201040692 riNAi-uA-ujjO-TWXX 30865twf.doc/n FIG. 6B is a schematic top view of the electronic device of FIG. 6A. Referring to FIG. 6A and FIG. 6B, the electronic device includes a body 21, a sliding member 220, an elastic positioning member 230, and a first elastic member (not shown). The body 210 has a first guiding slot 212 and a sliding portion. The groove 214, and the first channel is similarly constituted by a closed-loop and irregularly shaped circular orbit, and a plurality of bending points constitute a plurality of dead points p'. In this embodiment, the body training may have a display device (not shown), and the slider member may have a button unit (not shown).滑动 The sliding member 220 is slidably disposed inside the sliding slot 214 of the body 210, and is adapted to slide with the axis A2 relative to the body 210. In the present embodiment, the slider 220 can include a lower cover 222, a pivot 224, and an upper cover 226. The lower cover 222 is slidably disposed in the sliding slot 214, and the yoke shaft 224 is coupled to one side of the lower cover 222. The upper cover 226 is coupled to the pivot 224 to be pivoted by the pivot 224 to: 盍 222. In this embodiment, the button units are respectively disposed on the upper cover 226 and the lower cover 222, and are located opposite the upper cover 226 and the lower cover 222 to form a complete QWERTY keyboard group. That is, when the upper cover 226 is coupled to the lower cover 222, the button units or the keyboard group can be hidden to maintain the appearance, and of course, the upper surface of the upper cover 226 can also be used according to the needs of the product. A plurality of button units are provided to provide applications for other functions. The elastic positioning member 230 has a fixed end 232 and a free end 234. The fixed end 232 is fixed to the bottom of the sliding member 220, that is, the bottom of the lower jaw 222 of the fixed end 232, and is located on the axis A2. The free end 234 has a protrusion 234a protruding in the first guiding slot 212 so that when the slider 22 is slid to a certain point relative to the 12 201040692 PNAI-C A-0310-TWXX 3 〇 865 twf.doc/n body 210 When it is no longer possible to slide, the projections 23 will respectively be located at one of these dead points p'. In this embodiment, the elastic positioning member 230 can be a spring, and the lower cover 222 can have a second guiding groove 222a' such that the protrusion 234a is assembled to the second guiding groove 222a. Further, the second guide groove 222a is, for example, linear, and the second guide groove 222a extends in a direction perpendicular to the axis A2. Although in the present embodiment, the first guiding slot 212 is located in the body 21〇, and the fixed end 232 of the elastic positioning member 230 is fixed to the sliding member 22〇, in another embodiment not shown, the first The guiding groove 212 can be located on the sliding member 22〇, and the fixed end 232 of the elastic positioning member 230 can be fixed to the body 21〇. That is, the position of the guide groove 212 can be interchanged with the position of the elastic positioning member 230, and the effect of the fixed point sliding can be achieved. This embodiment is not limited thereto. Further, the dead points P include, for example, a first dead point P5, a second dead point P6, a third dead point P7, and a fourth dead point p8, and the first dead point P5 and the second dead point. P6, the fourth dead point and the third dead point are sequentially arranged in the first guiding slot 212. wherein, the first dead point P5, the second dead point P6, and the second dead point P7 are located at the first axis A2. Side; § 3, and the fourth dead point P8 is located on the second side of the axis A2 relative to the first side S3. When the protrusion 234a is located at the first dead point P5, the second dead point P6, the third dead point 卩 7 & In one of the cases, the elastic positioning member 230 generates an elastic pulling/extension force toward the first side S3. When the projection 234a is located at the fourth dead point P8, the elastic positioning member 23 turns elastic tensile force toward the second side S4. Although the embodiment and the previous embodiment both use four dead points as an example, in another embodiment not shown, the number and location of the dead points can be adjusted according to the design requirements. It is not limited to 13 201040692 nN/u λλ-ιλμΟ-TWXX 30865twf.doc/n. The first elastic member is disposed between the slider 22〇 and the body 21〇 for use in the -first direction The D3 upper-first elastic force E1 acts on the slider=0. The first direction D3 is parallel to the axis A2. In this embodiment, the first elastic member can also be realized by the elastic member 14〇 of FIG. For example, the elastic member 140 can be disposed at the bottom of the sliding slot 214, and the sliding member | 42 can be fixed in the sliding slot 214 of the body 210 to fix the movable member 144 to the sliding member 220. Further, the inner side wall of the sliding slot 214 can have a first fastening portion 216 ′ corresponding to the position of the first cover 226 of the first cover 226 and has a second fastening portion 226 a. The first fastening portion 216 . The first fastening portion 226 and the second fastening portion 226a are respectively a hook. In this embodiment, the first fastening portion 216 and the second fastening portion 226a are respectively a hook. The first latching portion 216 can be disposed in a receiving slot on the side wall of the body 210 and connected to a spring B. By the elastic force of the spring B, The first hooking portion 216 is movable from a position accommodated in the accommodating groove c to a position partially outside the side wall of the body 210. 7A to 11A are schematic perspective views of the electronic device of FIG. 6A in different operating states. FIG. 7B to FIG. 11B are schematic plan views of the electronic device of FIGS. 7A to 11A, respectively. Hereinafter, the accompanying FIGS. 6A, 7A to 11A, and FIG. 6B, 7B-11B illustrate structural changes of the electronic device 200 in different operating states. First, referring to FIG. 6A and FIG. 6B, the protrusion 234a is located at the first dead 14 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n Point P5 and upper cover 226 are attached to lower cover 222. At this time, the edge of the lower cover 222 is substantially aligned with the edge of the body 210, and the first fastening portion 216 is engaged with the second fastening portion 226a. In addition, the elastic positioning member 23 提供 provides an elastic force toward the first side S3 such that the protrusion 23 bears against the first guiding groove 212 toward the second side S4 by the restoring force generated when the elastic positioning member 23 is deformed. On the side wall. Thereafter, if the user wishes to open the upper cover 226 with respect to the lower cover 222, the slider 220 can be pushed in a second direction D4 so that the slider 220 receives the force F1 in the second direction D4. In the present embodiment, the second direction D4 and the first direction D3 may be opposed to each other. Referring to FIG. 7A and FIG. 7B, after the slider 22 is subjected to the force F1 and the force F1 drives the slider 220 to move in the second direction D4, the protrusion 234a moves from the first dead point P5 to the second dead point. At this time, the elastic positioning member 230 still provides an elastic force toward the first side S3, and the first elastic member generates a corresponding elastic force E1. During the movement of the slider 22, the first latching portion 216 is received in the accommodating slot c after the inclined surface thereof contacts the inclined surface of the second latching ring 2, so that the first latching portion 216 is formed. It does not interfere with each other structurally with the second hook portion 226a. That is, when the projection 234 & is located at the second dead point P6, the first snap portion 216 and the second snap portion are buckled. In the present embodiment, the sliding member 220 further includes a second elastic member 2 2 8 (only shown in FIGS. 7A and 7B ). The second elastic member 228 is, for example, a torsion spring, and is disposed on the pivot 226. It is used to apply a second elastic force E2 to the upper cover 226. Referring to FIG. 8A and FIG. 8β, after the first buckle=216 and the second latching portion 22 are unfastened, the upper cover is driven by the second elastic force E2 and is opened relative to the lower cover. At this time, the raised coffee 15 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n is still at the death point P6. Although the upper jaw 226 of the embodiment is driven by the second spacer 228 to be opened relative to the lower cover 222, in the embodiment shown in FIG. 2, the second elastic member 228 may be omitted, and the use may be omitted. Manual opening or other institutional design is not limited to this.
凊參考圖9A與圖9B,在作用力pi釋放之後,第一 彈性力E1即會帶動下蓋222沿第一方向D3移動,直到凸 起234a自第二死點P6移動至第四死點P8為止。此時, 滑動件220的樞軸226大致位於滑槽214的中央部分,且 上蓋226與下蓋222的邊緣相對本體21〇的邊緣的距離大 致相等,而呈現左右對稱的狀態。此外,由於上蓋與 下盍222原本相對的内表面因開啟而暴露出 者即可利用上蓋226與下蓋222内表面上的這些 進行輸入。Referring to FIG. 9A and FIG. 9B, after the force pi is released, the first elastic force E1 will move the lower cover 222 in the first direction D3 until the protrusion 234a moves from the second dead point P6 to the fourth dead point P8. until. At this time, the pivot 226 of the slider 220 is located substantially at the central portion of the sliding groove 214, and the edges of the upper cover 226 and the lower cover 222 are substantially equal to the edge of the body 21〇, and are in a bilaterally symmetrical state. In addition, since the inner surface of the upper cover and the lower side of the lower jaw 222 are exposed by opening, the upper cover 226 and the inner surface of the lower cover 222 can be used for input.
然後,若是使用者輸入完成後,可再度施加第二方向 D4的作用力FW滑動件22〇上,使得下蓋222沿第二方 向D4移動,直到凸起234a自第四死點p8移動至第三死 點P7為止(如圖10A與圖1〇B所示)。此時,下蓋a] 的邊緣與本體210的邊緣略為錯開。此外,彈性定位件23〇 朝向第-側S3提供彈性力,使得凸起23知受到彈性 件230形變時產生的恢復力而向第二側%承 槽212的侧壁上。 弟^ 請參考圖11A與圖Π,在下蓋222再度 Π且作用力Π帶動下蓋222沿第二方向心::力 凸起234a自第三死點Ρ7移動至第—死點朽。此時,下蓋 16 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 222的邊緣與本體21G的邊緣從錯開的狀態恢復為對齊的 狀態。之後,使用者還可施加另_作用力F2於上蓋挪 上二使得作?力F2 f動上盍226相對下蓋222樞轉後, 而蓋合於下蓋222 (如圖7A與圖7B所示)。Then, if the user input is completed, the force FW of the second direction D4 can be applied again, so that the lower cover 222 moves in the second direction D4 until the protrusion 234a moves from the fourth dead point p8 to the first Three dead points P7 (as shown in Figure 10A and Figure 1B). At this time, the edge of the lower cover a] is slightly offset from the edge of the body 210. Further, the elastic positioning member 23 提供 provides an elastic force toward the first side S3 such that the projection 23 is received by the restoring force generated when the elastic member 230 is deformed toward the side wall of the second side % groove 212. Referring to Fig. 11A and Fig. 11, the lower cover 222 is again clamped and the force Π drives the lower cover 222 along the second direction: the force projection 234a moves from the third dead point Ρ7 to the first dead point. At this time, the edge of the lower cover 16 201040692 PNAI-CA-0310-TWXX 30865twf.doc/n 222 and the edge of the body 21G are restored from the staggered state to the aligned state. After that, the user can also apply another force F2 to the upper cover to make the force F2 f move the upper jaw 226 to pivot relative to the lower cover 222, and cover the lower cover 222 (as shown in FIG. 7A and FIG. 7B). Show).
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人斤述,本發明之電子裳置藉由不凸起與導槽的配 :,使付盍體與本體根據凸起在導槽中死_位置,而形 的Γ狀態。因此,使用者可配合需求來改變電子 ϊΐΓΓ狀態’相當具有彈性。此外,當使用者要改變 動荖:賴作狀_ ’僅需施加單—方向的作用力來推 動盖脰’使得蓋m晴本體滑動即可。因此,便利性佳。 ^本發明已以實關賊如上,然其並利以限定 轉明之技術領域中具有通常知識者,在不脫離 料之圍内,#可作些許之更動與潤飾,故本 【圖式簡單=當視後附之申請專利範圍所界定者為準。 =^為本發明—實關之電子裝置的立體示意圖。 " 為圖1Α之電子裝置的俯視示意圖。 圖2為圖1八之電子裝置的彈性件的立體示意圖。 干土^ 3Α〜5Α為圖1Α之電子裝置於不同操作狀態的立體 不思圖。 肌 圖。圖犯〜圖犯分別為圖3Α〜5Α之電子襄置的俯視示意 圖6Α為本發明另一實施例之電子裝置的立體示意 17 201040692 10-TWXX 30865twf.doc/n 圖6B為圖6A之電子裝置的俯視示意圖。 圖7A〜11A為圖6A之電子裝置於不同操作狀態的立 體示意圖。 圖7丑~圖113分別為圖7八〜11八之電子裝置的俯視示 意圖。 【主要元件符號說明】 100 :電子裝置 110 :本體 112 :按鍵單元 114 :開口 120 :蓋體 122 :導槽 124 :顯示裝置 130 :彈性懸臂 132 :固定端 134 :自由端 134a :凸起 140 :彈性件 142 :滑軌件 142a :滑槽 144 :活動件 146 :彈性元件 200 :電子裝置 210 :本體 18 201040692 PNA1-CA-0310-TWXX 30865twf.doc/n 212 :第一導槽 214 :滑槽 216 :第一卡扣部 220 :滑動件 222 :下蓋 222a :第二導槽 224 :樞軸 © 226:上蓋 226a :第二卡扣部 228 :第二彈性件 230 :彈性定位件 232 :固定端 234 :自由端 234a :凸起 Al、A2 :軸線 D1〜D4 :方向 〇 E、E卜E2 :彈性力 F、FI、F2 :作用力 P、P’、P1 〜P8 :死點 S1〜S4 :側 19It is to be noted that the electronic skirt of the present invention has a shape in which the body and the body are in a state of being collapsed according to the position of the protrusion in the guide groove by the arrangement of the projection and the guide groove. Therefore, the user can change the state of the electronic cymbal with the demand to be quite flexible. In addition, when the user wants to change the movement, it is only necessary to apply a single-direction force to push the cover 脰 to slide the cover m clear body. Therefore, the convenience is good. ^ The invention has been implemented as a thief as above, but it is advantageous to limit the knowledge of the general knowledge in the field of clarification, in the area of not leaving the material, # can make some changes and retouching, so this [simple figure = This is subject to the definition of the scope of the patent application. =^ is a three-dimensional schematic diagram of the electronic device of the present invention. " is a top view of the electronic device of Figure 1. 2 is a perspective view of the elastic member of the electronic device of FIG. The dry soil ^ 3 Α ~ 5 Α is the three-dimensional figure of the electronic device of Fig. 1 in different operating states. Muscle map. FIG. 6B is a perspective view of an electronic device according to another embodiment of the present invention. FIG. 6B is an electronic device of FIG. 6A. FIG. 6B is a top view of the electronic device of FIG. 3A to FIG. A schematic view of the top. 7A-11A are schematic views of the electronic device of Fig. 6A in different operational states. Figure 7 is a top plan view of the electronic device of Figures 7-8 to 11, respectively. [Description of main component symbols] 100: electronic device 110: body 112: button unit 114: opening 120: cover 122: guide groove 124: display device 130: elastic cantilever 132: fixed end 134: free end 134a: protrusion 140: Elastic member 142: rail member 142a: chute 144: movable member 146: elastic member 200: electronic device 210: body 18 201040692 PNA1-CA-0310-TWXX 30865twf.doc/n 212: first guide groove 214: chute 216: first fastening portion 220: sliding member 222: lower cover 222a: second guiding groove 224: pivot © 226: upper cover 226a: second fastening portion 228: second elastic member 230: elastic positioning member 232: fixed End 234: free end 234a: raised Al, A2: axis D1~D4: direction 〇E, E bu E2: elastic force F, FI, F2: force P, P', P1 ~ P8: dead point S1~S4 : Side 19